RU2630313C1 - Unit for extracting beebread - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: unit for extracting beebread comprises a grinder for beebread honeycombs, with a rotor vertically arranged inside and equipped with radially installed pins. Also, the unit includes a pneumatic separator in the form of a cyclone with an aspiration channel, at the lower end of which a clutch is mounted with the possibility of movement and fixation in the working position. On the shaft common with the rotor of the working chamber, a fan with an outlet branch pipe for removing waxy raw material is installed, and a container for beebread is arranged under the cyclone. The chamber of the beebread honeycomb grinder and that of the pneumatic separator cyclone are united in one working chamber, which is made conical and tapering to the bottom. The rotor shaft is made in the form of a pipe with openings arranged on the periphery, the size of which is smaller than the diameter of the inscribed circle of the hexagon of the cross section of beebread granules, and its internal space forms an aspiration channel.

EFFECT: creating a simplified and lightweight design ensuring high quality of beebread obtained.

2 cl, 1 dwg

Description

The invention relates to agriculture, and more specifically to beekeeping, and is intended to extract the bee bread from honeycombs and clean it from impurities.

A known installation for extracting bee bread, in which the chopper of honeycomb honeycombs is separately installed in the form of a vertical cylindrical working chamber with a rotor with pins (blades) located inside, an air separator including a cyclone with an aspiration channel communicating the cavity of the working chamber with a cyclone and drives (patent RU No. 2275800 , 2004).

Its disadvantages are associated with separately installed devices of the grinder and pneumatic separator and the resulting large metal consumption, significant costs for manufacturing, maintenance and operation. In addition, the quality of the finished bee bread remains low due to the irregularity of the supply of crushed wax powder into the pneumatic separator. Also in the grinder of the installation, the granules of the bee are regrind from their hard collisions with pins located on the cylindrical surface of the working chamber and its bottom, which reduces the quality of the finished product.

There is also a known unit for extracting beef prototype, which contains a chopper of honeycombs in the form of a vertical cylindrical working chamber with a rotor inside, equipped with radially mounted pins, an air separator in the form of a cyclone with an aspiration channel communicating the cavity of the working chamber with a cyclone and a drive. The units of the unit are located in a common housing, while the cylindrical working chamber is located above the cyclone and is made perforated on the bottom of the cylindrical surface. The cyclone is rigidly bonded to a cylindrical working chamber with the coverage of the perforated section and contains inside the suction channel in the form of a pipe. A clutch is installed at the lower end of the suction channel with the ability to move through the pipe and fix in the working position. Above the suction channel, on a common shaft with the rotor of the working chamber, there is a fan and a branch pipe for the removal of wax raw materials, and under the cyclone there is a container for bee bread (patent RU No. 2452175, 2010).

A significant drawback of the unit is: crumbling of the bee bread granules during their interaction with the pins and sharp edges of the holes of the perforation of the grinding chamber, deposition and settling of crushed wax powder at the bottom of the grinding chamber under the lower pin, which leads to deterioration of the quality of the bread and increased labor costs for operating the unit.

The problem to which the invention is directed, is to create an aggregate for extracting the bee bread of a simplified and lightweight design and in high quality of the bee obtained.

The technical solution consists in the fact that by combining the chambers of the honeycomb grinder and the cyclone of the pneumatic separator into one conical working chamber, the shock load on the crushed material decreases as it moves to the discharge window with the simultaneous separation of the separated wax base of the honeycomb in the grinding chamber.

The technical result is achieved by the fact that the unit for extracting the beef, containing the chopper of honeycombs with vertically arranged rotor inside, equipped with radially mounted pins, a pneumatic separator in the form of a cyclone with an aspiration channel, at the lower end of which there is a coupling with the ability to move and fix in the working position, on a common shaft with a rotor of the working chamber is equipped with a fan with a branch pipe for the removal of wax raw materials, and under the cyclone there is a container for the bee bread, and the chopper chamber honeycomb honeycombs and a pneumatic separator cyclone are combined into one working chamber, which is made conical and tapering to the bottom, the rotor shaft is made in the form of a pipe with holes located at the periphery, the size of which is less than the diameter of the inscribed circle of the hexagon of the cross section of the bead granules, and its internal space forms an aspiration channel. The hollow rotor shaft is provided with pins, the length of which is reduced to the bottom of the conical working chamber, and the rotor shaft is rigidly cantilever connected to the fan impeller.

Comparative analysis with the prototype shows that the claimed unit for extracting beef meets the criterion of "Novelty", as it differs from the prototype:

- chambers chopper honeycomb honeycomb and cyclone pneumatic separator combined into one working chamber;

- the working chamber is made conical, tapering downward;

- the rotor shaft is made in the form of a hollow pipe with holes located on the periphery;

- the inner space of the rotor shaft is an aspiration channel;

- the size of the holes of the perforation of the rotor shaft is less than the diameter of the inscribed circle of the hexagon of the cross section of the beads of the bee bread;

- the rotor shaft is rigidly cantilever connected to the fan impeller;

- the length of the pins on the rotor shaft is reduced to the bottom of the conical chamber.

The combination of chambers of the honeycomb grinder and the cyclone of the pneumatic separator in one working chamber allows us to simplify the design and reduce the material consumption of the unit for extracting the beef. The hollow shaft of the rotor serves as an aspiration channel. Due to the perforation of the side surface of the rotor shaft and the working chamber, made in the form of a conical shape, the diameter of which decreases downward, the wax base is preliminarily removed from the chamber by suctioning it into the holes of the hollow rotor shaft during grinding of the honeycomb. To exclude the sucker pellets from being sucked into the suction channel, the size of the rotor shaft perforation holes is made smaller than the diameter of the inscribed circle of its hexagonal cross section. When the rotor shaft rotates, the holes of its perforation are self-cleaned by centrifugal forces when large particles of wax and bead granules get into them.

The drive of the unit is carried out from one electric motor due to the rigid cantilever connection of the rotor shaft with the fan impeller. Installing the rotor shaft under the fan allows you to create a suction air stream in its cavity. The air flow is sucked through the lower edge of the coupling of the hollow shaft of the rotor and the holes of its perforation, passes through the impeller and is thrown out of the fan.

The length of the pins on the rotor shaft decreases stepwise to the bottom of the conical working chamber. To destroy pieces of pepper honeycomb entering the unit, a large breaking force is required, which is ensured by the high peripheral speed of the long pins of the rotor shaft. When it is destroyed, smaller pieces of honeycomb are formed, the destruction of which requires less effort, which is provided by pins of shorter length in the second tier. Then a mixture of crushed wax base and separated bee bread granules is formed, which must be cleaned of wax shells without destroying the bean granules. Therefore, in the lower tier, the shortest pins are installed, which carry out peeling of the wax membranes.

An annular gap is formed between the lower part of the conical working chamber and the movable clutch mounted on the perforated hollow rotor shaft. Pearls granules pass into the formed annular gap, and pieces of honeycombs are crushed by lower short pins fixed on the hollow rotor shaft.

The drawing material shows an assembly for extracting the bee bread. The unit contains a conical working chamber 1 with a loading neck 2. Inside the conical working chamber there is a hollow shaft of the rotor 3 with radially arranged pins 4. On the lower part of the hollow shaft of the rotor 3 there are through holes 5, which together with the cavity of the shaft of the rotor 3 form an aspiration channel 6. A fan 7 is installed above the working chamber 1. An impeller 10 of a centrifugal fan 7 is mounted on the shaft 8 of the electric motor 9. The hollow shaft of the rotor 3 is rigidly connected to the inlet of the impeller 10 of the centrifugal fan 7, so the suction channel 6 communicates through the interior of the impeller 10 and discharge pipe 11 with a filter bag 12 for collecting waxy feed. On the lower free end of the hollow shaft of the rotor 3 is mounted a clutch 13 with the possibility of movement along its axis and fixation. The lower edge of the clutch 13 and the lower part of the tapering conical working chamber 1 of the unit form an annular gap Δ, comparable with the size of the granules of the bee bread. Under the exit window 14 is installed a container 15 for pellets of the bee bread. The drive of the hollow shaft of the rotor 3 and the impeller 10 of the centrifugal fan 7 is carried out from the shaft 8 of the motor 9. Between the fan housing 7 and the conical working chamber 1 is a bearing assembly 16.

The operation of the unit is as follows. Pieces of honeycombs prepared for processing are fed through the loading neck 2 to a conical working chamber 1, where they are crushed by the pins 4 of the rotating hollow shaft of the rotor 3. Pieces of honeycombs are first affected by long pins 4, which have a greater destructive force. As a result of the blows, the pieces of the honeycomb are destroyed into smaller parts with partial destruction of the honeycomb to the granules of the bee bread and the wax base of the honeycomb. Due to the impact, centrifugal force and air flow, an air-product layer is formed in which the light particles are closer to the axis of rotation of the pins 4, and the heavy particles of the honeycomb are thrown to the walls of the conical working chamber 1. Upon further lowering, the particles of the honeycomb are exposed shorter pins 4, the impact of which is enough to destroy the honeycomb and not enough to destroy the granules of the bee bread. When the impeller 10 of the centrifugal fan 7 rotates, a suction air stream is created inside the suction channel 6, which sucks in air through the holes 5 and the lower edge of the free end of the hollow shaft of the rotor 3. Lighter wax particles are removed directly from the working chamber 1 through the through holes 5 due to the suction stream and are thrown out by the fan 7 into the filter bag 12. The rest of the mixture of pellets of the bee bread and the crushed wax base of the honeycomb passes into the annular gap Δ formed by the lower edge of the coupling 13 and the lower part new conical working chamber 1, and will fall into the separation zone. Where the lighter wax base of the honeycomb is sucked into the suction channel 6 of the hollow shaft of the rotor 3 and moved to the filter bag 12, and the cleaned beads of the perga are lowered into the tank 15. To set the desired annular gap Δ, the sleeve 13 is moved up or down along the lower part of the hollow shaft rotor 3 and fix.

Due to the presence of these signs, the unit becomes more compact, less metal-intensive, and one electric motor is required to carry out the working process. Also, the use of pins of various lengths (the length decreases from top to bottom) reduces the overgrowth of the bee due to the reduced impact force of the pins on the honeycomb and the bean as they lower to the discharge window.

Perforation of the lower part of the hollow shaft of the rotor of the unit allows partially removing small particles of the wax base of the honeycomb from the conical working chamber at the initial stage of grinding.

The economic effect is achieved by increasing the yield of bee bread pellets from honeycombs with a high degree of purification from wax raw materials and reducing the granulation overgrowing, which leads to better preservation of nutrients during storage and a more attractive presentation.

Claims (2)

1. The unit for extracting beers containing a chopper of honeycomb honeycombs with a vertically arranged rotor inside, equipped with radially mounted pins, a pneumatic separator in the form of a cyclone with an aspiration channel, at the lower end of which there is a coupling with the ability to move and fix in the working position, on a common shaft with a rotor a working chamber is equipped with a fan with a branch pipe for the removal of wax raw materials, and under the cyclone there is a container for bee bread, characterized in that the chambers for chopping honeycombs and the cycle it is a pneumatic separator combined into one working chamber, which is made conical and tapering to the bottom, the rotor shaft is made in the form of a pipe with holes located around the periphery, the size of which is smaller than the diameter of the inscribed circle of the hexagon of the cross section of the beads of the bee bread, and its internal space forms an aspiration channel. 2. The assembly for extracting the bee according to claim 1, characterized in that the hollow shaft of the rotor is provided with pins, the length of which is reduced to the bottom of the conical working chamber, and the rotor shaft is rigidly cantilever connected to the fan impeller.

Images